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Volumn 51, Issue 1, 2014, Pages 58-65
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Incorporation of Na+/H+ antiporter gene from Aeluropus littoralis confers salt tolerance in soybean (Glycine max L.)
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Author keywords
Aeluropus littoralis; Glycine max L.; Na+ H+ antiporter gene; Ovary drip transformation; Salt tolerance; Soybean; Transgenic plants
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Indexed keywords
CHLOROPHYLL;
INORGANIC SALT;
MALONALDEHYDE;
POTASSIUM;
SODIUM;
SODIUM PROTON EXCHANGE PROTEIN;
ARTICLE;
DRUG EFFECT;
ELECTRIC CONDUCTIVITY;
GENE TRANSFER;
GENETICS;
METABOLISM;
PHOTOSYNTHESIS;
PHYSIOLOGICAL STRESS;
PHYSIOLOGY;
POACEAE;
SOYBEAN;
TRANSGENIC PLANT;
CHLOROPHYLL;
ELECTRIC CONDUCTIVITY;
GENE TRANSFER TECHNIQUES;
MALONDIALDEHYDE;
PHOTOSYNTHESIS;
PLANTS, GENETICALLY MODIFIED;
POACEAE;
POTASSIUM;
SALTS;
SODIUM;
SODIUM-HYDROGEN ANTIPORTER;
SOYBEANS;
STRESS, PHYSIOLOGICAL;
AELUROPUS LITTORALIS;
GLYCINE MAX;
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EID: 84897669462
PISSN: 03011208
EISSN: None
Source Type: Journal
DOI: None Document Type: Article |
Times cited : (23)
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References (32)
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